Software systems for operation, control, and monitoring of the EBEX instrument

Michael Milligan; Peter Ade; François Aubin; Carlo Baccigalupi; Chaoyun Bao; Julian Borrill; Christopher Cantalupo; Daniel Chapman; Joy Didier; Matt Dobbs; Will Grainger; Shaul Hanany; Seth Hillbrand; Johannes Hubmayr; Peter Hyland; Andrew Jaffe; Bradley Johnson; Theodore Kisner; Jeff Klein; Andrei Korotkov; Sam Leach; Adrian Lee; Lorne Levinson; Michele Limon; Kevin MacDermid; Tomotake Matsumura; Amber Miller; Enzo Pascale; Daniel Polsgrove; Nicolas Ponthieu; Kate Raach; Britt Reichborn-Kjennerud; Ilan Sagiv; Huan Tran; Gregory S. Tucker; Yury Vinokurov; Amit Yadav; Matias Zaldarriaga; Kyle Zilic

doi:10.1117/12.857583

Software systems for operation, control, and monitoring of the EBEX instrument

Michael Milligan, Peter Ade, François Aubin, Carlo Baccigalupi, Chaoyun Bao, Julian Borrill, Christopher Cantalupo, Daniel Chapman, Joy Didier, Matt Dobbs, Will Grainger, Shaul Hanany, Seth Hillbrand, Johannes Hubmayr, Peter Hyland, Andrew Jaffe, Bradley Johnson, Theodore Kisner, Jeff Klein, Andrei KorotkovSam Leach, Adrian Lee, Lorne Levinson, Michele Limon, Kevin MacDermid, Tomotake Matsumura, Amber Miller, Enzo Pascale, Daniel Polsgrove, Nicolas Ponthieu, Kate Raach, Britt Reichborn-Kjennerud, Ilan Sagiv, Huan Tran, Gregory S. Tucker, Yury Vinokurov, Amit Yadav, Matias Zaldarriaga, Kyle Zilic

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

6 Scopus citations

Abstract

We present the hardware and software systems implementing autonomous operation, distributed real-time monitoring, and control for the EBEX instrument. EBEX is a NASA-funded balloon-borne microwave polarimeter designed for a 14 day Antarctic flight that circumnavigates the pole. To meet its science goals the EBEX instrument autonomously executes several tasks in parallel: it collects attitude data and maintains pointing control in order to adhere to an observing schedule; tunes and operates up to 1920 TES bolometers and 120 SQUID amplifiers controlled by as many as 30 embedded computers; coordinates and dispatches jobs across an onboard computer network to manage this detector readout system; logs over 3 GiB/hour of science and housekeeping data to an onboard disk storage array; responds to a variety of commands and exogenous events; and downlinks multiple heterogeneous data streams representing a selected subset of the total logged data. Most of the systems implementing these functions have been tested during a recent engineering flight of the payload, and have proven to meet the target requirements. The EBEX ground segment couples uplink and downlink hardware to a client-server software stack, enabling real-time monitoring and command responsibility to be distributed across the public internet or other standard computer networks. Using the emerging dirfile standard as a uniform intermediate data format, a variety of front end programs provide access to different components and views of the downlinked data products. This distributed architecture was demonstrated operating across multiple widely dispersed sites prior to and during the EBEX engineering flight.

Original language	English (US)
Title of host publication	Software and Cyberinfrastructure for Astronomy
Edition	PART 1
DOIs	https://doi.org/10.1117/12.857583
State	Published - 2010
Event	Software and Cyberinfrastructure for Astronomy - San Diego, CA, United States Duration: Jun 27 2010 → Jun 30 2010

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Number	PART 1
Volume	7740
ISSN (Print)	0277-786X

Conference

Conference	Software and Cyberinfrastructure for Astronomy
Country/Territory	United States
City	San Diego, CA
Period	6/27/10 → 6/30/10

Keywords

CMB
ballooning
data handling
flight control systems
millimeter-wave telescopes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1117/12.857583

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Milligan, M., Ade, P., Aubin, F., Baccigalupi, C., Bao, C., Borrill, J., Cantalupo, C., Chapman, D., Didier, J., Dobbs, M., Grainger, W., Hanany, S., Hillbrand, S., Hubmayr, J., Hyland, P., Jaffe, A., Johnson, B., Kisner, T., Klein, J., ... Zilic, K. (2010). Software systems for operation, control, and monitoring of the EBEX instrument. In Software and Cyberinfrastructure for Astronomy (PART 1 ed.). Article 774007 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 7740, No. PART 1). https://doi.org/10.1117/12.857583

Software systems for operation, control, and monitoring of the EBEX instrument. / Milligan, Michael; Ade, Peter; Aubin, François et al.
Software and Cyberinfrastructure for Astronomy. PART 1. ed. 2010. 774007 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 7740, No. PART 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Milligan, M, Ade, P, Aubin, F, Baccigalupi, C, Bao, C, Borrill, J, Cantalupo, C, Chapman, D, Didier, J, Dobbs, M, Grainger, W, Hanany, S, Hillbrand, S, Hubmayr, J, Hyland, P, Jaffe, A, Johnson, B, Kisner, T, Klein, J, Korotkov, A, Leach, S, Lee, A, Levinson, L, Limon, M, MacDermid, K, Matsumura, T, Miller, A, Pascale, E, Polsgrove, D, Ponthieu, N, Raach, K, Reichborn-Kjennerud, B, Sagiv, I, Tran, H, Tucker, GS, Vinokurov, Y, Yadav, A, Zaldarriaga, M & Zilic, K 2010, Software systems for operation, control, and monitoring of the EBEX instrument. in Software and Cyberinfrastructure for Astronomy. PART 1 edn, 774007, Proceedings of SPIE - The International Society for Optical Engineering, no. PART 1, vol. 7740, Software and Cyberinfrastructure for Astronomy, San Diego, CA, United States, 6/27/10. https://doi.org/10.1117/12.857583

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abstract = "We present the hardware and software systems implementing autonomous operation, distributed real-time monitoring, and control for the EBEX instrument. EBEX is a NASA-funded balloon-borne microwave polarimeter designed for a 14 day Antarctic flight that circumnavigates the pole. To meet its science goals the EBEX instrument autonomously executes several tasks in parallel: it collects attitude data and maintains pointing control in order to adhere to an observing schedule; tunes and operates up to 1920 TES bolometers and 120 SQUID amplifiers controlled by as many as 30 embedded computers; coordinates and dispatches jobs across an onboard computer network to manage this detector readout system; logs over 3 GiB/hour of science and housekeeping data to an onboard disk storage array; responds to a variety of commands and exogenous events; and downlinks multiple heterogeneous data streams representing a selected subset of the total logged data. Most of the systems implementing these functions have been tested during a recent engineering flight of the payload, and have proven to meet the target requirements. The EBEX ground segment couples uplink and downlink hardware to a client-server software stack, enabling real-time monitoring and command responsibility to be distributed across the public internet or other standard computer networks. Using the emerging dirfile standard as a uniform intermediate data format, a variety of front end programs provide access to different components and views of the downlinked data products. This distributed architecture was demonstrated operating across multiple widely dispersed sites prior to and during the EBEX engineering flight.",

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AU - Ade, Peter

AU - Aubin, François

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AU - Bao, Chaoyun

AU - Borrill, Julian

AU - Cantalupo, Christopher

AU - Chapman, Daniel

AU - Didier, Joy

AU - Dobbs, Matt

AU - Grainger, Will

AU - Hanany, Shaul

AU - Hillbrand, Seth

AU - Hubmayr, Johannes

AU - Hyland, Peter

AU - Jaffe, Andrew

AU - Johnson, Bradley

AU - Kisner, Theodore

AU - Klein, Jeff

AU - Korotkov, Andrei

AU - Leach, Sam

AU - Lee, Adrian

AU - Levinson, Lorne

AU - Limon, Michele

AU - MacDermid, Kevin

AU - Matsumura, Tomotake

AU - Miller, Amber

AU - Pascale, Enzo

AU - Polsgrove, Daniel

AU - Ponthieu, Nicolas

AU - Raach, Kate

AU - Reichborn-Kjennerud, Britt

AU - Sagiv, Ilan

AU - Tran, Huan

AU - Tucker, Gregory S.

AU - Vinokurov, Yury

AU - Yadav, Amit

AU - Zaldarriaga, Matias

AU - Zilic, Kyle

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N2 - We present the hardware and software systems implementing autonomous operation, distributed real-time monitoring, and control for the EBEX instrument. EBEX is a NASA-funded balloon-borne microwave polarimeter designed for a 14 day Antarctic flight that circumnavigates the pole. To meet its science goals the EBEX instrument autonomously executes several tasks in parallel: it collects attitude data and maintains pointing control in order to adhere to an observing schedule; tunes and operates up to 1920 TES bolometers and 120 SQUID amplifiers controlled by as many as 30 embedded computers; coordinates and dispatches jobs across an onboard computer network to manage this detector readout system; logs over 3 GiB/hour of science and housekeeping data to an onboard disk storage array; responds to a variety of commands and exogenous events; and downlinks multiple heterogeneous data streams representing a selected subset of the total logged data. Most of the systems implementing these functions have been tested during a recent engineering flight of the payload, and have proven to meet the target requirements. The EBEX ground segment couples uplink and downlink hardware to a client-server software stack, enabling real-time monitoring and command responsibility to be distributed across the public internet or other standard computer networks. Using the emerging dirfile standard as a uniform intermediate data format, a variety of front end programs provide access to different components and views of the downlinked data products. This distributed architecture was demonstrated operating across multiple widely dispersed sites prior to and during the EBEX engineering flight.

AB - We present the hardware and software systems implementing autonomous operation, distributed real-time monitoring, and control for the EBEX instrument. EBEX is a NASA-funded balloon-borne microwave polarimeter designed for a 14 day Antarctic flight that circumnavigates the pole. To meet its science goals the EBEX instrument autonomously executes several tasks in parallel: it collects attitude data and maintains pointing control in order to adhere to an observing schedule; tunes and operates up to 1920 TES bolometers and 120 SQUID amplifiers controlled by as many as 30 embedded computers; coordinates and dispatches jobs across an onboard computer network to manage this detector readout system; logs over 3 GiB/hour of science and housekeeping data to an onboard disk storage array; responds to a variety of commands and exogenous events; and downlinks multiple heterogeneous data streams representing a selected subset of the total logged data. Most of the systems implementing these functions have been tested during a recent engineering flight of the payload, and have proven to meet the target requirements. The EBEX ground segment couples uplink and downlink hardware to a client-server software stack, enabling real-time monitoring and command responsibility to be distributed across the public internet or other standard computer networks. Using the emerging dirfile standard as a uniform intermediate data format, a variety of front end programs provide access to different components and views of the downlinked data products. This distributed architecture was demonstrated operating across multiple widely dispersed sites prior to and during the EBEX engineering flight.

KW - CMB

KW - ballooning

KW - data handling

KW - flight control systems

KW - millimeter-wave telescopes

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ER -

Software systems for operation, control, and monitoring of the EBEX instrument

Abstract

Publication series

Conference

Keywords

UN SDGs

Access

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